S.V.L. Narayana scite author profile

A combination of two methods for detecting distant relationships in protein primary sequences was used to compare the site‐specific recombination proteins encoded by bacteriophage lambda, phi 80, P22, P2, 186, P4 and P1. This group of proteins exhibits an unexpectedly large diversity of sequences. Despite this diversity, all of the recombinases can be aligned in their C‐terminal halves. A 40‐residue region near the C terminus is particularly well conserved in all the proteins and is homologous to a region near the C terminus of the yeast 2 mu plasmid Flp protein. This family of recombinases does not appear to be related to any other site‐specific recombinases. Three positions are perfectly conserved within this family: histidine, arginine and tyrosine are found at respective alignment positions 396, 399 and 433 within the well‐conserved C‐terminal region. We speculate that these residues contribute to the active site of this family of recombinases, and suggest that tyrosine‐433 forms a transient covalent linkage to DNA during strand cleavage and rejoining.

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A ‘Collagen Hug’ Model for Staphylococcus aureus CNA binding to collagen

Zong

Liang

et al. 2005

EMBO J

205

262

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The structural basis for the association of eukaryotic and prokaryotic protein receptors and their triple-helical collagen ligand remains poorly understood. Here, we present the crystal structures of a high affinity subsegment of the Staphylococcus aureus collagen-binding CNA as an apoprotein and in complex with a synthetic collagen-like triple helical peptide. The apo-protein structure is composed of two subdomains (N1 and N2), each adopting a variant IgG-fold, and a long linker that connects N1 and N2. The structure is stabilized by hydrophobic interdomain interactions and by the N2 C-terminal extension that complements a b-sheet on N1. In the ligand complex, the collagen-like peptide penetrates through a spherical hole formed by the two subdomains and the N1-N2 linker. Based on these two structures we propose a dynamic, multistep binding model, called the 'Collagen Hug' that is uniquely designed to allow multidomain collagen binding proteins to bind their extended rope-like ligand.

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A novel variant of the immunoglobulin fold in surface adhesins of Staphylococcus aureus: crystal structure of the fibrinogen-binding MSCRAMM, clumping factor A

et al. 2002

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We report here the crystal structure of the minimal ligand-binding segment of the Staphylococcus aureus MSCRAMM, clumping factor A. This ®brinogen-binding segment contains two similarly folded domains. The fold observed is a new variant of the immunoglobulin motif that we have called DE-variant or the DEv-IgG fold. This subgroup includes the ligand-binding domain of the collagen-binding S.aureus MSCRAMM CNA, and many other structures previously classi®ed as jelly rolls. Structure predictions suggest that the four ®brinogen-binding S.aureus MSCRAMMs identi®ed so far would also contain the same DEv-IgG fold. A systematic docking search using the C-terminal region of the ®brinogen g-chain as a probe suggested that a hydrophobic pocket formed between the two DEv-IgG domains of the clumping factor as the ligand-binding site. Mutagenic substitution of residues Tyr256, Pro336, Tyr338 and Lys389 in the clumping factor, which are proposed to contact the terminal residues 408 AGDV 411 of the g-chain, resulted in proteins with no or markedly reduced af®nity for ®brinogen.

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Ace Is a Collagen-binding MSCRAMM from Enterococcus faecalis

Rich¹,

Kreikemeyer²,

Owens³

et al. 1999

Journal of Biological Chemistry

207

197

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. Biochemical analyses of recombinant Ace and Cna A domains supported the modeling data in that the secondary structures were similar as determined by CD spectroscopy and both proteins bound at multiple sites in type I collagen with micromolar affinities, but with different apparent kinetics. We conclude that Ace is a collagen-binding MSCRAMM on enterococci and is structurally and functionally related to the staphylococcal Cna protein.

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S.V.L. Narayana

Crystal Structures of Staphylococcus aureus Sortase A and Its Substrate Complex

The integrase family of site-specific recombinases: regional similarities and global diversity.

A ‘Collagen Hug’ Model for Staphylococcus aureus CNA binding to collagen

A novel variant of the immunoglobulin fold in surface adhesins of Staphylococcus aureus: crystal structure of the fibrinogen-binding MSCRAMM, clumping factor A

Ace Is a Collagen-binding MSCRAMM from Enterococcus faecalis

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